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Barlow, D. P., Stoger, R., Hermann, B. G., Saito, K. and Schweifer, N (1991). The mouse insulin-like growth factor type-2 receptor is imprinted and closely linked to the Tme locus. Nature 349, 84-87.[Medline]

Bartolomei, M. S., Zemel, S. and Tilghman, S. M (1991). Parental imprinting of the mouse H19 gene. Nature 351, 153-155.[Medline]

Barton, S. C, Adams, C. A., Norris, M. L. and Surani, M. A. H (1985). Development of gynogenetic and parthenogenetic inner cell mass andtrophectoderm tissues in reconstituted blastocysts in the mouse. J. Embryol. exp. Morph 90, 267-285.[Medline]

Barton, S. C., Ferguson-Smith, A. C., Fundele, R. and Surani, M. A (1991). Influence of paternally imprinted genes on development. Development 113, 679-688.[Abstract]

Cattanach, B. M., Barr, J. A., Evans, E. P., Burtenshaw, M., Beechey, C.V., Leff, S. E., Brannan, C. I., Copeland, N. G., Jenkins, N. A. and Jones, J (1993). A candidate mouse model for Prader-Willi syndrome which shows an absence of Snrpn expression. Nature Genetics 2, 270-274.

Chomczynski, P. and Sacchi, N (1987). Single-step method of RNA isolation by acid guanidinium thiocyanate-phenol-chloroform extraction. Analyt. Biochem 162, 156-159.[Medline]

Clarke, H. J., Vaarmuza, S., Prideaux, V. R. and Rossant, J (1988). The developmental potential of parthenogenetically derived cells in chimeric mouse embryos: implications for the actions of imprinted genes. Development 104, 175-182.[Abstract]

DeChiara, T. M., Robertson, E. J. and Efstratiadis, A (1991). Parental imprinting of the mouse insulin-like growth factor II gene. Cell 64, 849-860.[Medline]

DeChiara, T. M., Efstratiadis, A. and Robertson, E. J (1990). A growth deficiency phenotype in heterozygous mice carrying an insulin-like growth factor II gene disrupted by gene targetting. Nature 345, 78-80.[Medline]

Eversole-Cire, P., Ferguson-Smith, A. C., Sasaki, H., Brown, K., Cattanach, B. M., Gonzales, F. A., Surani, M. A. and Jones, P. A (1993). Activation of an imprinted Igf2 gene in mouse somatic cell cultures. Mol. Cell. Biol 13, 4928-4938.[Abstract/Free Full Text]

Feinberg, A. P (1993). Genomic Imprinting and gene activation in cancer. Nature Genet 4, 110-113.[Medline]

Ferguson-Smith, A. C., Cattanach, B. M., Barton, S. C., Beechey, C. V. and Surani, M. A (1991). Embryological and molecular investigations of parental imprinting on mouse chromosome 7. Nature 351, 667-670.[Medline]

Ferguson-Smith, A. C., Sasaki, H., Cattanach, B. M. and Surani, M. A (1993). Parental-origin-specific epigenetic modification of the H19 gene. Nature 362, 751-754.[Medline]

Friedrich, G. and Soriano, P (1991). Promoter traps in embryonic stem cells: a genetic screen to identify and mutate developmental genes in mice. Genes Dev 5, 1513-1523.[Abstract/Free Full Text]

Fundele, R. H., Norris, M. L., Barton, S. C., Felau, M., Howlett, S. K., Mills, W. E. and Surani, M. A (1990). Temporal and spatial selection against parthenogenetic cells during development in fetal chimeras. Development 108, 203-211.[Abstract]

Fundele, R. H., Norris, M. L., Barton, S. C., Reik, W. and Surani, M. A (1989). Systematic elimination of parthenogenetic cells in mouse chimeras. Development 106, 29-35.[Abstract]

Howlett, S. K. and Reik, W (1991). Methylation levels of maternal and paternal genomes during preimplantation development. Development 113, 119-127.[Abstract]

J\212gerbauer, E.-M., Fraser, A., Herbst, E. W., Kothary, R. and Fundele R (1992). Parthenogenetic stem cells in post-natal mouse chimeras. Development 116, 95-102.[Abstract]

Kafri, T., Ariel, M., Brandeis, M., Shemer, R., Urven, L., McCarrey, J., Cedar, H. and Razin, A (1992). Developmental pattern of gene specific DNA methylation in the mouse embryo and germ line. Genes Dev 6, 705-714.[Abstract/Free Full Text]

Lee, J., Pintar, J. and Efstratiadis, A (1990). Pattern of the insulin-like growth factor II gene expression during early mouse development. Development 110, 151-159.[Abstract]

Leff, S., Brannan, C., Reed, M., \205z\215elik, T., Francke, U., Copeland, N. and Jenkins, N (1992). Maternal imprinting of the mouse Snrpn gene and conserved linkage homology with the human Prader-Willi syndrome region. Nature Genetics 2, 259-264.[Medline]

Mann, J. R., Gadi, I., Harbison, M. L., Abbondanzo, S. J. and Stewart, C. L (1990). Androgenetic mouse embryonic stem cells are pluripotent and cause skeletal defects in chimeras: Implications for genetic imprinting. Cell 62, 251-260.[Medline]

Mann, J. R. and Stewart, C. L (1991). Development to term of mouse androgenetic aggregation chimeras. Development 113, 1325-1333.[Abstract]

Monk, M., Boubelik, M. and Lehnert, S (1987). Temporal and regional changed in DNA methylation in the embryonic, extraembryonic and germ cell lineages during mouse embryo development. Development 99, 371-382.[Abstract]

Nagy, A., Gocza, E., Merentes Dias, E., Prideaux, V. R., Ivanyi, E., Markkula, M. and Rossant, J (1990). Embryonic stem cells alone are able to support fetal development in the mouse. Development 110, 815-821.[Abstract/Free Full Text]

Nagy, A., Paldi, A., Dezso, L., Varga, L. and Magyar, A (1987). Prenatal fate of parthenogenetic cells in mouse aggregation chimeras. Development 101, 67-71.[Abstract]

Nagy, A., Sass, M. and Markkula, M (1989). Systematic non-uniform distribution of parthenogenetic cells in adult mouse chimeras. Development 106, 321-324.[Abstract]

Nagy, A., Rossant, J., Nagy, R., Abramow-Newerly, W. and Roder, J. C (1993). Derivation of completely cell culture-derived mice from early-passage embryonic stem cells. Proc. Nat. Acad. Sci. USA 90, 8424-8428.[Abstract/Free Full Text]

Ogawa, O., Eccles, M. R., Szeto, J., McNoe, L. A., Yun, K., Maw, M. A., Smith, P. J. and Reeve, A. E (1993). Relaxation of insulin-like growth factor II gene imprinting implicated in Wilms' tumour. Nature 362, 749-751.[Medline]

Paldi, A., Nagy, A., Markkula, M., Barna, I. and Dezso, L (1989). Postnatal development of parthenogenetic <->fertilised mouse aggregation chimeras. Development 105, 115-118.[Abstract]

Poirier, F., Chan, C.-T. J., Timmons, P., Robertson, E. J., Evans, M. J. and Rigby, P. W. J (1991). The murine H19 gene is activated during embryonic stem cell differentiation In vitroand at the time of implantation in the developing embryo. Development 113, 1105-1114.[Abstract]

Rainier, S., Johnson, L. A., Dobry, C. J., Ping, A. J., Grundy, P. E. and Feinberg, A. P (1993). Relaxation of imprinted genes in human cancer. Nature 362, 747-749.[Medline]

Robertson, E. J., Evans, M. J. and Kaufman, M. H (1983). X-chromosome instability in pluripotential stem cell lines derived from parthenogenetic embryos. J. Embryol. exp. Morph 74, 297-309.[Medline]

Rotwein, P. and Hall, L. J (1990). Evolution of insulin-like growth factor II: characterisation of the mouse IGFII gene and identification of two pseudo-exons. DNA Cell Biol 9, 725-735.[Medline]

Sanford, J. P., Clarke, H. J., Chapman, V. M. and Rossant, J (1987). Differences in DNA methylation during oogenesis and spermatogenesis and their persistence during early embryogenesis in the mouse. Genes Dev 1, 1039-1046.[Abstract/Free Full Text]

Sasaki, H., Jones, P. A., Chaillet, J. R., Ferguson-Smith, A. C., Barton, S. C., Reik, W. and Surani, M. A (1992). Parental imprinting: potentially active chromatin of the repressed maternal allele of the mouse insulin-like growth factor II ( Igf2 ) gene. GenesDev 6, 1843-1856.[Abstract/Free Full Text]

St\232ger, R., Kubicka, P., Liu, C-G., Kafri, T., Razin, A., Cedar, H. and Barlow, D (1993). Maternal-specific methylation of the imprinted mouse Igf2r locus identifies the expressed locus as carrying the imprinting signal. Cell 73, 61-71.[Medline]

Surani, M. A. H. and Barton, S. C (1983). Development of gynogenetic eggs in the mouse: implications for parthenogenetic embryos. Science 222, 1034-1036.[Abstract/Free Full Text]

Surani, M. A., Allen, N. D., Barton, S. C., Fundele, R., Howlett, S. K., Norris, M. L. and Reik, W (1990). Developmental consequences of imprinting of parental chromosomes by DNA methylation. Phil. Trans. R. Soc. Lond. B 326, 313-327.[Abstract/Free Full Text]

Thomson, J. A. and Solter, D (1988). The developmental fate of androgenetic, parthenogenetic and gynogenetic cells in chimeric gastrulating mouse embryos. Genes Dev 2, 1344-1351.[Abstract/Free Full Text]

Thomson, J. A. and Solter, D (1989). Chimeras between parthenogenetic or androgenetic blastomeres and normal embryos: allocation to the inner cell mass and trophectoderm. Dev. Biol 131, 580-583.[Medline]

Wood, S. A., Pascoe, W. S., Schmidt, C., Kemler, R., Evans, M. J. and Allen, N. D (1993). Simple and efficient production of embryonic stem cell-embryo chimeras by coculture. Proc. Nat. Acad. Sci. USA 90, 4582-4585.[Abstract/Free Full Text]
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